After reading the accompanying background information, students create an ice core using a tennis ball container and an assortment of dyes and craft supplies. Students measure the thickness and determine the age of each layer. As an extension...(View More) activity, students write a story about their ice core.(View Less)

Students simulate the process of remote sensing by using common materials to represent Earth’s different ground coverings and a light meter to represent satellite instruments. The concept of albedo and its importance in Earth’s radiation budget...(View More) are introduced. The lesson uses the 5E instructional model and is part of the book, "Tour of the Electromagnetic Spectrum."(View Less)

This is an activity about satellite design. Learners will create a satellite model to determine which shape will provide a steady minimum current output from solar panels, given a fixed position light source. After, as a group, they will assess...(View More) whether their satellite model would work in real life and how their actions were similar to what engineers do. This is the fifth activity as part of the iMAGiNETICspace: Where Imagination, Magnetism, and Space Collide curriculum. Instructions for downloading the iBook educator's guide and the associated Transmedia book student guide are available at the resource link.(View Less)

In this activity, teams of learners will model how scientists and engineers design and build spacecraft to collect, store, and transmit data to Earth. Teams will design a system to store and transmit topographic data of the Moon and then analyze...(View More) that data and compare it to data collected by the Lunar Reconnaissance Orbiter.(View Less)

This activity is a short engineering design challenge to be completed by individual students or small teams. A real-world problem is presented, designing buildings for hurricane-prone areas, but in a simulated way that works in a classroom, after...(View More) school club, or informal education setting. Students are given simple materials and design requirements, and must plan and build a tower as tall as possible that will hold up a tennis ball while resisting the force of wind from a fan. After the towers are built, the group comes together to test them. If there is time after testing, which can be observational or framed as a contest between teams, students can redesign their towers to improve their performance, or simply discuss what worked well and what didn’t in their designs.(View Less)

This is a lesson about the robotic arm on the International Space Station. Learners will build a robotic arm to grapple (grab onto) a spacecraft and then use it to grapple different classroom objects. This is technology activity 2 of 2 found in the...(View More) ISS L.A.B.S. Educator Resource Guide.(View Less)

Learners will investigate the relationship between mass, speed, velocity, and kinetic energy in order to select the best material to be used on a space suit. They will apply an engineering design test procedure to determine impact strength of...(View More) various materials. This is engineering activity 2 of 2 found in the ISS L.A.B.S. Educator Resource Guide.(View Less)

Learners will investigate the relationship between speed, distance, and orbits as they investigate how quickly the International Space Station (ISS) can travel to take a picture of an erupting volcano. This is mathematics activity 2 of 2 found in...(View More) the ISS L.A.B.S. Educator Resource Guide.(View Less)